Yosys+ nextpr:从Verilog到Bitstream的商业fpga开源框架

2019 IEEE 27th Annual International Symposium on Field-Programmable Custom Computing Machines (FCCM) Pub Date : 2019-03-25 DOI:10.1109/FCCM.2019.00010

David Shah, Eddie Hung, C. Wolf, Serge Bazanski, D. Gisselquist, Miodrag Milanovic

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引用次数: 61

摘要

本文介绍了一个完全免费和开源软件(FOSS)架构中立的FPGA框架，其中Yosys用于Verilog合成，nextnr用于放置，路由和比特流生成。目前，该流程支持两种商用FPGA系列，Lattice iCE40(高达8K逻辑元件)和Lattice ECP5(高达85K元件)，并已经过硬件验证，可用于定制计算机器，包括低功耗神经网络加速器和能够启动Linux的OpenRISC片上系统。Yosys和nextpr都以高度灵活的方式设计，通过将特定架构的细节与通用映射算法分离开来，支持现代fpga中存在的许多功能。该框架在一个最长路径的案例研究中进行了演示，以找到一个非典型的单源-汇路径，占用了所有片上布线的45%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Yosys+nextpnr: An Open Source Framework from Verilog to Bitstream for Commercial FPGAs

This paper introduces a fully free and open source software (FOSS) architecture-neutral FPGA framework comprising of Yosys for Verilog synthesis, and nextpnr for placement, routing, and bitstream generation. Currently, this flow supports two commercially available FPGA families, Lattice iCE40 (up to 8K logic elements) and Lattice ECP5 (up to 85K elements) and has been hardware-proven for custom-computing machines including a low-power neural-network accelerator and an OpenRISC system-on-chip capable of booting Linux. Both Yosys and nextpnr have been engineered in a highly flexible manner to support many of the features present in modern FPGAs by separating architecture-specific details from the common mapping algorithms.This framework is demonstrated on a longest-path case study to find an atypical single source-sink path occupying up to 45% of all on-chip wiring.

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2019 IEEE 27th Annual International Symposium on Field-Programmable Custom Computing Machines (FCCM)

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